KR20090102000A - Rectangular clarifier with auto-flocculation effect - Google Patents

Abstract

PURPOSE: A rectangular precipitate system having cohesion function is provided to increase concentration of return sludge, and to improve excellent precipitation efficiency while offering good water quality. CONSTITUTION: A rectangular precipitate system having cohesion function comprises a hopper part on an upper stream, a flower declined part on a downstream, a vertical blocking plate(51), and a plurality horizontal baffles(52). A vertical baffle(20), a sludge collector(30), and an outflow weir are formed in the hopper part. The vertical blocking plate is formed on a location corresponding to 30~100% of a horizontal plane of the hopper part. The vertical blocking plate cuts off the top of water current. A plurality of penetration holes are formed on the horizontal baffles.

Description

Rectangular clarifier with auto-flocculation effect

The present invention relates to the structure of the sedimentation tank (Clarifier or Sedimentation Tank), and more specifically, to induce self-aggregation of contaminated water containing a high concentration of suspended solids to improve the sedimentation efficiency and the settled floc is pushed down the sedimentation basin The present invention relates to a horizontal flow sedimentation system to prevent the phenomenon to produce excellent treated water.

Most water treatment apparatuses used for sewage treatment or wastewater treatment are treated with a reservoir filled with wastewater and wastewater, and a treatment tank that receives wastewater from the reservoir and purifies the wastewater by biological or chemical methods. It consists of a sedimentation tank that aggregates and precipitates sludge in the primary influent discharged as a state.

In general, the precipitation process is a process in which contaminated water containing SS (suspended solid: suspended solids, suspended solids, and turbid matters) is introduced into a precipitation apparatus to precipitate suspended solids and discharge only clean water as treated water. Therefore, the sedimentation tank not only directly affects the water quality but also has a great effect on the removal of the SS component, thus requiring an efficient design.

The initial concept of sedimentation was a simple gravitational sedimentation method that allowed heavy suspended solids to settle over the sediment floor over time according to Stokes's Law. The conventional gravity sedimentation sedimentation concept is made through a four-step sedimentation step, such as independent particle sedimentation, flocculation sedimentation, local sedimentation and concentration, which is a phenomenon that can occur in a low concentration of suspended solids. However, when the suspended solids concentration (1000 mg / L or more) is high, such as sewage and wastewater in the field, sedimentation occurs in five stages rather than precipitation due to the four-stage phenomenon (independent particle sedimentation, flocculation sedimentation, regional sedimentation, concentration). (Aggregation precipitation, independent particle precipitation, flocculation precipitation, local precipitation, concentration). Therefore, the higher the concentration of suspended solids, the longer the time required for precipitation. In addition, in the case of a rectangular sedimentation battery, suspended solids accumulate at the bottom of the sedimentation basin. At this time, the flow of water flowing downstream flows in a drift due to water temperature or structural problems, causing the solids accumulated at the bottom of the sedimentation basin to be pushed downward. Therefore, the higher the concentration of suspended solids in the sedimentation basin, the longer the time required for flocculation and the longer the area of suspended solids accumulated on the bottom of the sedimentation basin is, the more suspended solids are pushed to the sedimentation basin. As the area of suspended solids accumulating on the bottom of the sedimentation basin becomes wider or longer, it is necessary to transfer the suspended solids accumulated in the hopper of the influent. Difficult to maintain.

Figure 1 shows the side cross-sectional structure of the inclined plate rectangular precipitation system. The gravity rectangular sedimentation tank 100 is composed of a hopper part on the upstream side where sludge is deposited and a bottom slope part on the downstream side where the vertical distance between the bottom surface and the water surface becomes narrower toward the downstream side. In addition, in the upstream hopper, a vertical baffle 20 in which a plurality of inlets 21 are formed on a side surface perpendicular to the influent flow is provided. On the other hand, the scraper type sludge collector 30 driven by the motor M is provided in the inclination part of the downstream side, and the outflow weir 40 is provided in the upper end of a wall surface. On the upstream side of the hopper portion and the bottom slope portion, naturally deposited sludge and sludge deposited layers, that is, sludge layers scraped by the sludge collector 30 from the bottom of the inclined portion are formed.

The present invention is to solve the problems of the prior art as described above, to increase the size of the floc in order to be able to separate the contaminated water, including suspended solids in the sedimentation basin, the sedimentation basin by short circuit or density flow in the rectangular sedimentation basin It is an object of the present invention to provide a sedimentation system having improved efficiency of removing suspended solids by preventing sludge in the lower portion moving toward the outlet and deteriorating the effluent.

The present invention for achieving the above object is composed of an upstream hopper portion and a downstream inclined bottom portion, and the hopper portion usually includes a vertical baffle, a sludge collector and an outflow weir formed on the inflow side. In the rectangular sedimentation system of 1) at a position corresponding to 30-100% of the horizontal area of the hopper or at a position corresponding to a residence time of 3 to 30 minutes in a rectangular sedimentation system having a total residence time of 3 to 5 hours, Vertical barrier plate blocking the upper part of the water stream, the lower part of which is 20cm to 60% of the depth, and a plurality of permeable holes are formed so that the influent flows vertically downward, and between the vertical baffle and the vertical barrier plate A rectangular sedimentation system having a self-aggregation function having a plurality of horizontal baffles positioned at the same position. For convenience of description below, the space formed by the vertical baffle and the side of the hopper and the vertical blocking plate is referred to as "aggregation well". The present invention is a system for generating a self-aggregation effect while the treated water stays in the coagulation well.

In the flocculating well, when the vertical blocking plate is less than 30% (retention time 5 minutes or less) with respect to the horizontal area of the hopper, the sludge settling effect is insignificant due to the short residence time of the treated water in the flocculating well, and exceeds 100% ( Or more than 30 minutes), the sedimentation effect is improved, but the space (ie, the outlet of the cohesive well) of the vertical barrier plate is narrowed, so that the flow of treated water is disturbed in this part, and ultimately, the sludge floats. there is a problem.

If the lower part of the vertical barrier plate falls below 20cm from the bottom, the flow of treated water at the outlet of the flocculating well is disturbed and the sludge rises, so that the sludge flocculation-precipitation effect is rather reduced and rises to more than 60% of the corresponding depth. In this case, the residence time of the treated water is shortened and the sludge flocculation-precipitation effect is negligible.

One or more horizontal baffles may be installed as necessary.

In addition, in the sedimentation system according to the present invention, a short circuit prevention baffle is additionally installed at an angle of 60 to 150 ° with the lower portion of the vertical baffle to prevent a short circuit when discharging excess sludge and conveying sludge deposited in the hopper. Can be. If the installation angle is less than 60 ° or more than 150 °, the short circuit is increased or the short circuit prevention effect is insignificant.

In addition, in the precipitation system according to the present invention, in order to induce the sludge layer maintenance and the uniform flow of the treated water in the hopper portion, the vertical barrier plate and the bottom of the vertical barrier plate and the hopper spaced apart from the bottom of the vertical barrier plate, An inclined baffle may be installed at 0-60 ° relative to.

In addition, in the precipitation system according to the present invention, in order to prevent the precipitation sludge from moving in a downstream direction by a single circuit, within 50% of the upstream side of the inclined portion horizontal area, 20 to 100 cm from the bottom of the inclined portion and the water depth from the bottom. One or two or more sludge movement prevention baffles may be installed to block 1/2 or less. At this time, it is preferable that there are a plurality of perforations in the sludge movement preventing baffle installed at the downstream.

The lower separation distance of the sludge movement preventing baffle is not a special technical meaning and is a space in which the sludge collector can move. If the sludge prevention baffle extends from the bottom to more than half of the water depth, the sludge may rise due to an increase in the flow rate of the treated water passing through the baffle.

In addition, in the precipitation system according to the present invention, the lower part is spaced 20 to 50 cm from the bottom and the upper part is spaced from the water surface to more than 40% of the water to prevent the lower movement of the sludge and to maintain the laminar flow of the water flowing upward. , The upper portion is spaced 20 ~ 100cm from the water surface, one or more horizontal flow maintenance baffle having a plurality of permeable holes formed in multiple stages on the upper side can be installed. When installed together with the sludge movement prevention baffle, the horizontal flow maintenance baffle is installed in the outermost (downstream) of the sludge movement prevention baffle.

According to the present invention, while the introduced contaminated water stays in the flocculation well of the precipitation system, the floc floc increases in size and further increases the flocculation-precipitation effect. Therefore, by applying the system according to the present invention, it is possible to treat influent water having a high sludge concentration, and to increase the concentration of the return sludge. In addition, the movement phenomenon is prevented to the end of the sedimentation basin of the sludge accumulated in the sedimentation basin to improve the sedimentation efficiency and to provide a cleaner effluent.

In addition, the sedimentation system according to the present invention can be easily applied not only to the existing rectangular sedimentation basin but also to the new rectangular sedimentation basin, and is easier to operate and manage than the conventional rectangular sedimentation basin, thereby reducing the land area and maintenance and management cost.

1 is a side cross-sectional view of a conventional rectangular sedimentation basin.

2 is a side cross-sectional view of the rectangular precipitation system according to the present invention.

Figure 3 is a cross-sectional view showing a sludge movement prevention baffle and a sludge collector of the rectangular sedimentation system according to the present invention.

Figure 4 is a cross-sectional view showing the position of the sludge movement prevention baffle and horizontal flow holding baffle and the sludge collector of the rectangular sedimentation system according to the present invention.

5 is a view showing the position and structure of the horizontal flow holding baffle.

Figure 6 is a computer simulation of the sludge movement phenomenon in the conventional rectangular sedimentation basin.

7 is a simulation of the sludge movement phenomenon in the absence of the sludge movement prevention baffle in the precipitation system according to the present invention.

8 is a computer simulation of the sludge movement phenomenon when the sludge movement prevention baffle is installed in the precipitation system according to the present invention.

Figure 9 shows the sludge concentration distribution at the bottom surface for the prior art sedimentation basin.

Figure 10 shows the sludge concentration distribution at the bottom surface for the sedimentation basin of the present invention.

***** Explanation of Reference Symbols *****

10: sedimentation basin 20: vertical baffle 21: inlet

30: sludge collector 40: outflow weir 50: flocculation well

51: vertical blocking plate 52: horizontal baffle 53: short circuit prevention baffle

54: inclined baffle 55: sludge movement prevention baffle 15 : Horizontal flow maintenance baffle

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention. The embodiments and drawings attached to the specification of the present invention are merely examples for easily explaining the contents and scope of the technical idea of the present invention, and thus the technical scope of the present invention is not limited or changed. It will be apparent to those skilled in the art that various modifications are possible within the scope of the present invention.

Figure 2 is a view showing one side cross section of the sedimentation system according to an embodiment of the present invention, Figure 3 shows a position diagram of the sludge movement prevention baffle and the sludge collector of the sedimentation basin according to an embodiment of the present invention. Figure 4 shows the position of the sludge movement prevention baffle and horizontal flow holding baffle and sludge collector of the rectangular sedimentation basin according to the present invention. 5 shows a horizontal flow maintaining baffle.

In the conventional rectangular sedimentation battery, a vertical baffle having a plurality of permeable holes is formed so that the contaminated water can be introduced while maintaining a uniform horizontal flow and a proper flow rate. Agglomeration wells are formed to improve the sedimentation properties of the sludge. As described above, the aggregation well refers to a space formed by the side of the vertical baffle and the hopper and the vertical blocking plate. In the conventional rectangular sedimentation basin, a plurality of perforations are formed on the front or part of the vertical baffle, but of course, in the present invention, an inlet through which the inflow water is introduced is formed in the upper part of the vertical baffle.

Agglomeration wells are composed of vertical baffles that change the direction of influent flow, horizontal baffles with multiple perforations and vertical barrier plates to maintain laminar flow while maintaining flow in a vertical downward direction.

The residence time of the treated water (the sum of the return flow rate and the inflow flow rate) is preferably about 3 to 30 minutes, and usually about 5 to 10 minutes is sufficient. On the other hand, it is preferable to maintain the flow rate of flocculated sludge and improve the sedimentation efficiency at the time of design, the flow rate per unit length for the downflow flow rate or the vertical barrier plate is 3m ³ / m or less.

A short circuit prevention baffle is installed at the bottom of the vertical baffle to prevent a short circuit of treated water in the coagulation well. The short-circuit prevention baffle prevents the short-circuit phenomenon of the sludge by the pump during conveyance and discharge of excess sludge to maintain the sludge concentration over 5000 mg / L.

An inclined baffle is installed at the outer lower portion of the coagulation well to prevent the precipitated sludge of contaminated water passing through the coagulation well to move to the lower end of the sedimentation basin and to maintain the sludge layer to increase the concentration of surplus and conveying sludge.

The precipitated sludge is moved to the lower part of the sedimentation basin by water flow, and the sludge is discharged to the lower part weir or is moved to the introduction hopper by the sludge collector. At this time, the length of transfer time of diesel diesel sludge becomes longer, and thus, the precipitated sludge floats due to the action of microorganisms such as denitrification, resulting in worsening of effluent. Therefore, in order to prevent the movement of the sludge and to smooth the laminar flow of the water flow, it is preferable that one or several sludge movement prevention baffles are provided in the bottom slope portion of the rectangular sedimentation battery according to the longitudinal direction of the sedimentation basin. 3 and 4 show the relative position and structure of the sludge movement preventing baffle. As can be seen in the figure, the lower part is installed at a predetermined interval so that the sludge collector can move, and the upper part is installed at an appropriate height (lower 20cm-settling height less than 60%) to collect and accumulate the sludge from the lower part. If the upper height of the anti-sludge baffle is too high (more than 60%), the flow rate of the upper part may be increased and sludge loss may increase, which may lead to deterioration of the discharge water quality.

When the slant movement prevention baffle is installed at a predetermined position of the inclined portion, as shown in FIG. 5, the lower end portion is blocked and the upper portion may have a horizontal flow maintaining baffle having a predetermined hole. The closed lower end of the horizontal flow retaining baffle prevents the lower movement of the sludge and the upper perforation hole is used as a means for maintaining the laminar flow of the water flowing upward.

Hereinafter, the present invention will be described in more detail through numerical analysis examples.

Numerical Example  : Measurement of flow field change

In order to grasp the change of the flow field in the rectangular sedimentation system of the self-aggregation function according to the present invention, the computational flow analysis was performed.

The specifications and operating conditions as described in Table 1 were analyzed.

Figure 6 is a computer simulation of the sludge movement phenomenon in the conventional rectangular sedimentation basin. 7 is a rectangular sedimentation basin without sludge movement prevention baffle according to the present invention is a computer simulation of the sludge movement phenomenon. 8 is a rectangular sedimentation basin including a sludge movement prevention baffle according to the present invention is a computer simulation of the sludge movement phenomenon. The concentration of sludge in the prior art sedimentation basin (FIG. 6) shows a high concentration of the sludge to an area far from the inlet, whereas the sedimentation basin (FIG. 7 and FIG. 8) according to the present invention is shown to fall around the inlet / hopper. You can check it.

9 and 10 show the sludge concentration distribution in the bottom surface, the sedimentation basin according to the prior art (Fig. 9) has a high concentration of sludge at the 30 m position of the bottom surface, the sedimentation basin according to the present invention (Fig. 10) The sludge concentration at the 8m point is high, it can be seen that the design distance according to the present invention is shorter than the conventional design according to the sludge moving distance.

Claims (6)

In the conventional rectangular sedimentation system which consists of an upstream hopper part and a downstream inclined part, and in the said hopper part includes the vertical baffle, the sludge collector, and the outflow weir formed in the inflow water introduction side, A vertical blocking plate for blocking the upper portion of the water stream, the lower portion of which is spaced apart from the bottom by 20 cm to 60% of the depth at a position corresponding to 30 to 100% (or residence time 3 to 30 minutes) of the horizontal area of the hopper portion; A rectangular sedimentation system having a self-aggregating function, characterized in that a plurality of permeation holes are formed to allow the influent to flow laminarly downward and a plurality of horizontal baffles positioned between the vertical baffles and the vertical blocking plates. The method of claim 1, Self-coagulation function characterized in that a short circuit prevention baffle is installed at an angle of 60 to 150 ° with respect to the vertical baffle at the bottom of the vertical baffle to prevent a short circuit when discharging excess sludge and conveying sludge deposited on the hopper. Rectangular sedimentation system. The method of claim 1, In order to induce the sludge layer maintenance and the uniform flow of the treated water in the hopper portion, the bottom of the vertical barrier plate, spaced apart from the bottom of the vertical barrier plate and the hopper portion, inclined at an angle of 0-60 ° in the vertical to downstream direction Rectangle sedimentation system of self-aggregation, characterized in that the baffle is installed. The method according to any one of claims 1 to 3, In order to prevent the sedimentation sludge from moving in the downstream direction by the single circuit, within 60% of the upstream side of the inclined part, the sludge is separated 20 to 50 cm from the bottom of the inclined part and blocks less than 1/2 of the water depth from the bottom. A rectangular sedimentation system of self-aggregation, characterized in that one or more movement preventing baffles are installed. The method according to any one of claims 1 to 3, In the inclined portion, The lower part is spaced 20 ~ 100cm away from the bottom, the upper part is spaced more than 40% from the water surface to prevent sludge movement of the sludge and maintain the laminar flow of the water flowing upward. A rectangular sedimentation system with self-aggregation, characterized in that one or more horizontal flow holding baffles are installed. The method of claim 4, wherein Downstream of the anti-sludge baffle, The lower part is spaced 20 ~ 100cm away from the bottom, the upper part is spaced more than 40% of water depth to prevent sludge movement of the lower part of the sludge and maintain the laminarization of the water flowing to the upper part. Rectangle sedimentation system of self-aggregation, characterized in that one or more horizontal flow holding baffle is formed as.